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Fabrication of Metal Gas Filter by Material Extrusion Additive Manufacturing Process

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Języki publikacji
EN
Abstrakty
EN
Recently, 3D printing processes have been used to manufacture metal powder filters with manufacturing complex-shape. In this study, metal powder filters of various shapes were manufactured using the metal extrusion additive manufacturing (MEAM) process, which is used to manufacture three-dimensional structures by extruding a filament consisting of a metal powder and a binder. Firstly, filaments were prepared by appropriately mixing SUS316 powder with sizes ranging from 7.5 µm to 50 µm and a binder. These filaments were extruded at temperatures of 100℃ to 160℃ depending on the type of filament being manufactured, to form three types of cylindrical filter. Specimens were sintered in a high vacuum atmosphere furnace at 850℃ to 1050℃ for 1 hour after debinding. The specimens were analyzed for permeability using a capillary flow porometer, porosity was determined by applying Archimedes’ law and microstructure was observed using SEM.
Twórcy
autor
  • Korea Institute of Materials Science (KIMS), Metal Powder Department, Changwon, 51508, Republic of Korea
  • Pusan National University, Department of Materials Science and Engineering, Busan, 46241, Republic of Korea
  • Korea Institute of Materials Science (KIMS), Metal Powder Department, Changwon, 51508, Republic of Korea
  • Pusan National University, Department of Materials Science and Engineering, Busan, 46241, Republic of Korea
autor
  • Korea Institute of Materials Science (KIMS), Metal Powder Department, Changwon, 51508, Republic of Korea
autor
  • R&D Center, ASFLOW CO. Ltd, Hwasung, 16648, Republic of Korea
autor
  • 3DP R&D Center, REPROTECH, Suwon, 16229, Republic of Korea
autor
  • Pusan National University, Department of Materials Science and Engineering, Busan, 46241, Republic of Korea
  • Korea Institute of Materials Science (KIMS), Metal Powder Department, Changwon, 51508, Republic of Korea
Bibliografia
  • [1] J. Wang, H. Tang, P. Tan, J. Zhou, Procedia Engineering 27, 737-741 (2012).
  • [2] Maire S.A. Heikkinen, N.H. Harley, J. Aerosol. Sci. 31, 721-738 (2000).
  • [3] S.Y. Bae, I.S. Ahn, T.K. Sung, J.H. Choi, Journal of Korean Powder Metallurgy Institute 11, 289-293 (2004).
  • [4] S.M. Choi, K.C. Oh, C.B. Lee, Energy. 77, 327-337 (2014).
  • [5] D.R. Cahela, B.J. Tatarchuk, Catal Today 69, 33-39 (2001).
  • [6] L. Ren, Z. Xueli, Z. Song, C. Zhao, Q. Liu, J. Xue, X. Li, Materials 10, 305 (2017).
  • [7] P. Geng, J. Zhao, W. Wu, W. Ye, Y. Wang, S. Wang, S. Zang, J. Manuf. Process. 37, 266-273 (2019).
  • [8] G.G. Joamin, C. Santiago, S. Stephan, K. Christian, S. Janak, H. Clemens, Materials 11, 840 (2018).
Uwagi
1. This work is supported by the Ministry of Trade, Industry & Energy (MOTIE) of the Republic of Korea (no. 20008834 and 20009937).
2. Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-11fb4cad-dd36-4422-8dca-760d68d06ab3
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